Methods and apparatus for bypassing holds

ABSTRACT

Automated monitoring of a voice communication session, when the session is in an on hold status, to determine when the session is no longer in the on hold status. When it is determined that the session is no longer in the on hold status, user interface output is rendered that is perceptible to a calling user that initiated the session, and that indicates that the on hold status of the session has ceased. In some implementations, an audio stream of the session can be monitored to determine, based on processing of the audio stream, a candidate end of the on hold status. In response, a response solicitation signal is injected into an outgoing portion of the audio. The audio stream can be further monitored for a response (if any) to the response solicitation signal. The response (if any) can be processed to determine whether the end of the on hold status is an actual end of the on hold status.

BACKGROUND

Humans can engage in voice communication sessions (such as telephonecalls) using a variety of client devices. When an individual (referredto herein as a “caller” or “user”) calls a particular number and no oneis currently available to take the call, many organizations can placethe caller in an on hold status. An on hold status indicates the calleris waiting to interact with a live person (also referred to herein as a“user”). Music is frequently played for a user while they are waiting onhold. Additionally, the music can be interrupted by a variety of humanrecorded voices which can provide additional information such asinformation about the organization the user called (e.g., the websitefor the organization, the normal business hours for the organization,etc.). Additionally, automated voices can update the user with anestimated remaining wait time to indicate how much longer the user willremain on hold.

When a call is on hold, a caller has to closely monitor the call todetermine when a second user, such as a service representative, becomesactive in the call. For example, when on hold music switches to a humanvoice, a caller must determine if the voice they are hearing is aprerecorded voice or is a live service representative. To enable closemonitoring of an on hold call initiated via a client device, a callermay turn up the call volume, place the audio output of the call in aspeakerphone modality, and/or repeatedly activate a screen of the clientdevice while the call is on hold (to check to ensure the call is stillactive and on hold). Those and/or other on hold monitoring activities ofthe caller can increase power consumption of the client device. Forexample, such activities can increase power consumption of a mobilephone being utilized for the call, which can cause expedited drain onthe battery of the mobile phone. Additionally, those and/or other onhold monitoring activities can require the caller to make a largequantity of inputs at the client device, such as inputs to increase thevolume, activate a speakerphone modality, and/or activate the screen.

SUMMARY

Implementations described herein relate to automated monitoring of avoice communication session, when the session is in an on hold status,to determine when the session is no longer in the on hold status. Whenit is determined that the session is no longer in the on hold status,user interface output is rendered that is perceptible to a calling userthat initiated the session, and that indicates that the on hold statusof the session has ceased. In various implementations, an on hold client(e.g., that operates at least in part on a client device that initiatedthe voice communication session) can be utilized to monitor at least anincoming portion of an audio stream of the session to determine when thesession is no longer in the on hold status. In some of those variousimplementations, the on hold client determines, based on processing ofthe audio stream, a candidate end of the on hold status. The candidateend of the on hold status can be based on detecting the occurrence ofone or more events in the audio stream. As some non-limiting examples,the candidate end of the on hold status can be based on detecting atransition in the audio stream (e.g., any transition or a transitionfrom “on hold music” to a human voice), detecting any human voice (e.g.,using voice activity detection), detecting a new human voice (e.g.,using speaker diarization), detecting the occurrence of certain termsand/or phrases (e.g., “hello”, “hi”, and/or a name of the calling user),and/or other event(s).

In some version of those various implementations, the on hold clientcauses a response solicitation signal to be injected into an outgoingportion of the audio stream (so that it can be “heard” by the calledparty) in response to detecting the candidate end of the on hold status.The response solicitation signal can be a recorded human voice speakingone or more words or a synthetically generated voice speaking the one ormore words. The one or more words can be, for example, “Hello”, “Are youthere”, “Hi, are you on the line”, etc. The on hold client can furthermonitor for a response (if any) to the response solicitation signal anddetermine whether the response indicates that the candidate end of theon hold status is an actual end of the on hold status. If so, the onhold client can cause user interface output to be rendered that isperceptible to a calling user that initiated the session, and thatindicates that the on hold status of the session has ceased (i.e., thatthe voice communication session is no longer on hold). If not, the onhold client can continue to monitor for another occurrence of acandidate end of the one hold status. In some implementations, the onhold client determines whether the response indicates that the candidateend of the on hold status is an actual end of the on hold status basedon determining a likelihood that the response is a human voice; based onconverting the response to text (e.g., using a speech-to-text processor)and determining whether the text is responsive to the responsesolicitation signal; based on determining that the response is not apre-recorded voice (e.g., includes voice characteristic(s) that aredistinct from those of pre-recorded voice(s) for the voice communicationsession); and/or based on other criterion/criteria. The on hold clientcan optionally utilize a trained machine learning model in determining alikelihood that the response is a human voice.

In these and other manners, the on hold client can monitor the incomingportion of an audio stream of an on hold session and dynamicallydetermine when to provide a response solicitation signal. Further, theon hold client can utilize a response (if any) to the responsesolicitation signal in determining whether the on hold status of thesession has ceased. These actions by the on hold client can be performedwithout any intervention from the calling user and without necessitatingthe client device to audibly render the audio stream of the voicecommunication session. Further, as described herein, in variousimplementations the on hold client can be initiated automatically(without any user input being required) or with minimal user input(e.g., with a single-tap of a graphical element, or a single spokencommand).

A voice communication session can utilize a variety of protocols and/orinfrastructures such as Voice over Internet Protocol (VOIP), a publicswitched telephone network (PSTN), a private branch exchange (PBX), anyof a variety of video and/or audio conferencing services, etc. Invarious implementations, a voice communication session is between aclient device of a calling user (that initiates the voice communicationsession) and one or more devices of a called party. The voicecommunication session enables bidirectional audio communication betweenthe calling user and the called party. The voice communication sessioncan be a direct peer-to-peer session between the client devices of thecalling user and the device(s) of the called party, and/or can be routedthrough various servers, networks, and/or other resources. Voicecommunication sessions can occur between a variety of devices. Forexample, a voice communication session can be between: a client device(e.g., a mobile phone, a standalone interactive speaker, a tablet, alaptop) of a calling user and a landline telephone of a called party; aclient device of a calling user and a client device of a called party; aclient device of a calling user and a PBX of a called party; etc.

In some implementations described herein, an on hold client, operatingat least in part on a client device, can be initiated in response to theclient device detecting a voice communication session (initiated by theclient device) has been placed on hold. Client devices, such as mobilephones, can examine the audio stream of the voice communication sessionand determine the session is on hold in a variety of ways. As oneexample, a client device can determine a session is on hold based ondetecting music in an incoming portion of the audio stream, such astypical “on hold music”. For instance, an incoming portion of the audiostream can be processed and compared to a list of known on hold music(e.g., audio characteristics of the audio stream can be compared toaudio characteristics of known on hold music) to determine whether theincoming portion of the audio stream is typical on hold music. Such alist can be stored locally on the client device and/or on a remoteserver the client device can connect to via a network (e.g., a cellularnetwork). Additionally or alternatively, the incoming portion of theaudio stream can be processed and compared to a list of known on holdvoices. As another example, the client device can determine a session ison hold based on detecting any music in an incoming portion of the audiostream. As yet another example, the client device can additionally oralternatively determine a session is on hold based on comparing a dialednumber for the session to a list of phone numbers that are known forhaving callers placed on hold. For example, if a user calls“Hypothetical Utility Company” the client device can have the phonenumber associated with “Hypothetical Utility Company” stored as a numberthat usually places a caller on hold before the user can speak with alive representative. Furthermore, the list of phone numbers known forplacing callers on hold can have a corresponding list of known on holdmusic and/or known on hold voices used by the number. Additionally oralternatively, a user can provide telephone numbers to the client devicethat typically place them on hold. With a user's permission, these userprovided telephone numbers can be shared across client devices and canbe added to the list of numbers that typically put people on hold onother client devices.

In some implementations, a user can indicate to the client device theyhave been placed on hold. In some versions of those implementations, theclient device can detect that the user is likely on hold and provideuser interface output (e.g., a selectable graphical element and/or anaudible prompt) prompting the user if they would like to initiate an onhold client. If the user responds with affirmative user interface input(e.g., a selection of a selectable graphical element and/or a spokenaffirmative input), the on hold client can be initiated. In some otherversions of those implementations, a user can initiate the on holdclient without the client device detecting the user is likely on holdand/or without the client device prompting the user. For example, theuser can provide a spoken command (e.g., “Assistant, initiate on holdmonitoring”) to initiate the on hold client and/or can select aselectable graphical element whose presence isn't contingent ondetermining the user is likely on hold. In many implementations, aclient device can monitor the audio stream of an entire voicecommunication session and detect if a user has been placed on hold atsome point other than the beginning of the session. For example, a usercan be interacting with a representative who places a user on hold whilethey transfer the session to a second representative. It is noted thatin various implementations, the on hold client may operate in thebackground to detect when the voice communication session has beenplaced on hold, and may be “initiated” (e.g., transitioned to an“active” state) in which it them performs other aspects of the presentdisclosure (e.g., to detect when the voice communication session is nolonger on hold).

When an on hold client is initiated, the on hold client can monitor atleast an incoming portion of an audio stream of the voice communicationsession to determine when the voice communication session is no longerin an on hold status. When a session is no longer in the on hold status,the calling user can interact with a live person such as arepresentative at a company, a receptionist at a doctor's office, etc.Monitoring the audio stream of the voice communication session using theon hold client can be performed without direct interaction from the user(e.g., the user does not need to listen to the session while it is onhold).

In some implementations, the on hold client can determine when on holdmusic changes to a human voice. This human voice can sometimes be arecording of a person, so the on hold client determines if a recordingis being played or if a live person has joined the session. In variousimplementations, an on hold client can ask the detected voice a question(referred to herein as a “response solicitation signal”) and see if thevoice responds to the question. For example, when a human voice isdetected on the in the audio signal of the session, the on hold clientcan ask “Are you there?” and see if the voice responds to the question.An appropriate response to the question that the on hold clientinitiated indicates the hold is over and a second person has joined thesession. In other implementations, the question is ignored and the onhold client can determine that a second person has not joined thesession. For example, if an on hold client sends “Is anyone there?” asinput to the audio signal and receives no response (e.g., instead onhold music continues to play), it can indicate the voice is a recordingand the session is still on hold.

In some implementations, a “candidate end of hold event” can be used todetermine when the hold might be over. In many implementations, thiscandidate end of hold event can initiate the on hold client sending aresponse solicitation signal over the audio channel of the session tosee if a voice is human. This candidate end of hold event can bedetected in a variety of ways. For example, a client device can detectwhen music stops playing and/or a person starts speaking. A change frommusic to a person talking can be determined using a variety of audiofingerprinting processes including Discrete Fourier transforms (DFT). ADFT can monitor blocks of the on hold session and determine when asufficient change from one block compared to previous blocks is detected(e.g., detects the block when music stops playing and the change frommusic to a human voice in an additional block). In variousimplementations, one or more machine learning models can be trained andused to determine when an on hold session changes from audio to a humanvoice.

In many implementations, the threshold for determining when to ask aquestion (sometimes referred to as a “response solicitation signal”)over the audio signal is low, and the on hold client will frequently aska question since asking a question takes very little computationalresources (and won't cause offense if a human is not currently at theother end of the session). In some of those implementations, a firstmachine learning model can be used to detect the candidate end of holdevent and determine when to ask a question as input to the audio signal.Determining if a response is detected can require further computationalresources, and in a variety of implementations a second machine learningmodel (in addition to a first machine learning model) can determine if aperson has responded to the question. The second machine learning modelused to detect whether a person has responded to the responsesolicitation signal can be stored locally on the client device and/orexternally from the client device, e.g., on one or more remote computingsystems often referred to as the “cloud.” In some implementations, an onhold client can use a single machine learning model to combine allportions of dealing with a session on hold. In some of thoseimplementations, the machine learning model can be used to process anaudio stream and provide an output that indicates a likelihood that thesession is on hold. In some versions of those implementations, a firsteasier to satisfy threshold for the likelihood can be utilized fordetermining a candidate end of the on hold status, and a second harderto satisfy threshold for the likelihood can be utilized for determiningan actual end of the on hold status.

In a variety of implementations, one or more machine learning models canutilize an audio stream as input and the one or more models can generatea variety of output including a determination that a voice communicationsession has been placed on hold, a determination that a hold haspotentially ended and a response solicitation signal should betransmitted as input to the audio stream of the voice communicationsession, and/or a determination the voice communication session hold hasended and it is unnecessary to send a response solicitation signal. Insome implementations, a single machine learning model can perform allaudio stream analysis for the on hold client. In other implementations,the output of different machine learning models can be provided to theon hold client. Additionally or alternatively, in some implementationsportions of the on hold client can provide input to and/or receiveoutput from one or more machine learning models while portions of the onhold client have no interaction with any machine learning model.

Additionally or alternatively, some voice communication sessions whileon hold can verbally indicate an estimated remaining hold time. In manyimplementations, an on hold client can determine the estimated remaininghold time by analyzing natural language within the audio stream of thevoice communication session, and can indicate to a user the estimatedremaining hold time. In some such implementations, an estimatedremaining hold time can be rendered to the user as a dialog box on aclient device with a display screen such as pushing a pop up messagethat says “Your on hold call with “Hypothetical Water Company” hasprovided an updated remaining estimated hold of 10 minutes.” Thismessage can appear on a client device in a variety of ways including aspart of the on hold client, as a new popup on the screen, as a textmessage, etc. Furthermore, a client device can additionally oralternatively render this information to user as a verbal indicationusing one or more speakers associated with the client device. In someimplementations, an on hold client can learn the average amount of timea user spends on hold with a known number, and supply the average holdtime (e.g., with a countdown) to the user when more specific estimatesare unknown. Machine learning models associated with the on hold clientcan, when using the audio stream as input, learn when an estimatedremaining hold length has been indicated in the audio stream and/orlearn estimated on hold times for known numbers.

Machine learning models can include feed forward neural networks,Recurrent Neural Networks (RNN), Convolutional Neural Networks (CNN),etc. Machine learning models can be trained using a set of supervisedtraining data with labeled output that corresponds to a given input. Insome implementations, labeled audio streams of a set of previouslyrecorded on hold voice communication sessions can be used as a trainingset for a machine learning model.

In a variety of implementations, the on hold client can utilize speakerdiarization which can partition the audio stream of the session todetect an individual voice. Speaker diarization is the process ofportioning an input audio stream into homogenous segments according tospeaker identity. It answers the question of “who spoke when” in amulti-speaker environment. For example, speaker diarization can beutilized to identify that a first segment of an input audio stream isattributable to a first human speaker (without particularly identifyingwho the first human speaker is), a second segment of the input audiostream is attributable to a disparate second human speaker (withoutparticularly identifying who the first human speaker is), a thirdsegment of the input audio stream is attributable to the first humanspeaker, etc. When a specific voice is detected, the on hold client canquery the voice to see if it receives a response. If the voice does notrespond to the on hold client's question (e.g. “Hello, are you there?”),the on hold client can determine the identified voice is a recording andnot an indication the hold is over. The particular voice can be learnedby the on hold client as a recording of a voice, and that voice will beignored if heard again during the voice communication session hold. Forexample, voice characteristic(s) of the particular voice and/or word(s)spoken by the particular voice can be identified and future occurrencesof those voice characteristic(s) and/or word(s) in the voicecommunication session can be ignored. In other words, many times when aperson is on hold, the recording played for the user will be a loop thatincludes music interrupted by the same recording (or one of severalrecordings). A voice identified as a recording within this on holdrecording loop will be ignored if the voice communication session holdloops back to the same identified voice (i.e., not prompt the same voiceagain with a question). In some such implementations, the recorded voicecan be shared across many client devices as a known voice recording.

In some implementations, the contents detected on the audio signal willbe such a strong indicator that a human user is on the line that noresponse solicitation signal is necessary. For example, if the on holdclient detects one of a list of keywords and/or phrases such as thecaller's first name, the caller's last name, the caller's full name,etc., the on hold client can determine a live human user is on the linewithout asking any questions over the audio stream of the voicecommunication session. Additionally or alternatively, servicerepresentatives frequently follow a script when interacting with a user.The on hold client can monitor for the typical scripted greeting from aservice representative of a particular company to identify the hold isover without sending a question over the audio stream. For example,suppose the user calls “Hypothetical Utility Company” at a particularnumber. The on hold client can learn the scripted response servicerepresentatives at “Hypothetical Utility Company” use when a servicerepresentative answers a voice communication sessions. In other words,the on hold client can learn service representatives at “HypotheticalUtility Company” begin voice communication sessions with a user afterthe end of a hold with a scripted message such as “Hello, my name is[service representative's name] and I work with Hypothetical UtilityCompany. How may I help you today?”. Detecting the scripted message cantrigger ending the on hold client without further need to query thevoice and see if it is a live second user.

Once the on hold client detects an end of the hold, in a variety ofimplementations the on hold client can send a scripted message to thesecond user who is now also active in the session. For example, the onhold client can send a message saying “Hello, I represent Jane Doe. I amnotifying her and she will be here momentarily.” This message helps keepthe second user on the line while the user who initiated the session isbeing notified of the end of hold. Additionally or alternatively, thevoice communication session can be handed off to a further clientinstead of back to the user to interact with the session. In some suchimplementations, the further client can interact with the voicecommunication session using known information about the user and/orinformation the user provided to the further client regarding thespecific voice communication session. For example, a user can providethe further client with information about when they want a dinnerreservation at “Hypothetical Fancy Restaurant” and the further clientcan interact with the additional live human user to make the dinnerreservation for the user.

In many implementations, the user who initiated the session is notifiedwhen the on hold client determines the on hold status has ended (i.e.,the hold is over and a human is on the line). In some implementations,the user can select how they want to be notified at or around the sametime the on hold client is initiated. In other implementations, the usercan select how they want to be notified as a setting within the on holdclient. The user can be notified using the client device itself. Forexample, the client device can notify the user by causing the clientdevice to render a ring tone, causing the client device vibrate, causingthe client device to provide spoken output (e.g., “you are no longer onhold”), etc. For instance, the client device can vibrate when the holdis over and the user can push a button on the client device to begininteracting with the session.

Additionally or alternatively, the on hold client can notify the userthrough one or more other client devices and/or peripheral devices(e.g., Internet of Things (IoT) devices), e.g., shared on the samenetwork and/or forming part of the same coordinated “ecosystem” ofclient devices that are under the user's control. The on hold client canhave knowledge of other devices on the network through a devicetopology. For example, if an on hold client knows the user is in a roomwith smart light(s), the user can select to be notified by changing thestate(s) of smart light(s) (e.g., flashing light(s) on and off, dimminglight(s), increasing the intensity of the light(s), changing the colorof light(s), etc.). As another example, a user who is engaging with adisplay screen such as a smart television can select to be notified by amessage appearing on the smart television display screen. In otherwords, a user can watch television while the session is on hold and canbe notified by the on hold client via their television the hold is overso the user can reenter the session. As yet another example, the voicecommunication session can be made via a mobile telephone and thenotification can be rendered via one or more smart speakers and/or otherclient device(s). In a variety of implementations, the client deviceused for the voice communication session can be a mobile telephone.Alternative client devices can be used for the voice communicationsession. For example, the client device used for the voice communicationsession can include a dedicated automated assistant device (e.g., asmart speaker and/or other dedicated assistant device) with thecapability of making voice communication sessions for the user.

Implementations disclosed herein can enhance the usability of clientdevices by reducing the time a client device interacts with an on holdvoice communication session. Computational resources can be conserved byrunning an on hold client process in the background of the computingdevice instead of the client device fully interacting with an on holdvoice communication session. For example, many users will output on holdvoice communication sessions through a speaker associated with theclient device. Background monitoring of a voice communication sessioncompared to outputting a session on a speaker requires lesscomputational processing by a client device. Additionally oralternatively, performing an on hold process in the background of aclient device can conserve the battery life of a client device whencompared to outputting an on hold voice communication session throughone or more speakers associated with the client device (which canfurther include both the output of an audio stream a user can hear whena client device is next to his or her ear as well as the audio stream ofan on hold voice communication session outputted by an externalspeaker).

The above is provided as an overview of various implementationsdisclosed herein. Additional detail is provided herein regarding thosevarious implementations, as well as additional implementations.

In some implementations, a method implemented by one or more processorsis provided and includes detecting that a voice communication session isin an on hold status. The voice communication session is initiated by aclient device of a calling user, and detecting that the voicecommunication session is in the on hold status is based at least in parton an audio stream of the voice communication session. The methodfurther includes initiating an on hold client on the client device.Initiating the on hold client is during the voice communication sessionand is based on detecting that the voice communication session is in theon hold status. The method further includes monitoring, using the onhold client, the audio stream of the voice communication session for acandidate end of the on hold status. Monitoring the audio stream of thevoice communication session occurs without direct interaction from thecalling user. The method further includes detecting, based on themonitoring, the candidate end of the on hold status. The method furtherincludes, in response to detecting the candidate end of the on holdstatus: sending, from the client device, a response solicitation signalas input to the audio stream of the voice communication session;monitoring the audio stream of the voice communication session for aresponse to the response solicitation signal; and determining that theresponse to the response solicitation signal indicates that thecandidate end of the on hold status is an actual end of the on holdstatus. The actual end of the on hold status indicates that a human useris available to interact with the calling user in the voicecommunication session. The method further includes causing userinterface output to be rendered in response to determining the actualend of the on hold status. The user interface output is perceptible bythe calling user and indicates the actual end of the on hold status.

These and other implementations of the technology disclosed herein caninclude one or more of the following features.

In some implementations, detecting the candidate end of the on holdstatus includes detecting a human voice speaking in the audio stream ofthe voice communication session.

In some implementations, the client device is a mobile telephone or astandalone interactive speaker.

In some implementations, initiating the on hold client is responsive touser interface input provided at the client device by the calling user.In some versions of those implementations, the method further includes,in response to detecting that the voice communication session is in theon hold status: rendering, at the client device, a suggestion forinitiating the on hold client. In those versions, the user interfaceinput provided by the calling user is affirmative user interface inputthat is provided responsive to rendering the suggestion at the clientdevice.

In some implementations, the on hold client is automatically initiatedby the client device in response to detecting that the voicecommunication session is in the on hold status.

In some implementations, detecting that the voice communication sessionis in the on hold status includes detecting music in the audio stream ofthe voice communication session, and optionally determining the music isincluded in a list of known on hold music.

In some implementations, detecting that the voice communication sessionis in the on hold status is further based on determining a telephonenumber associated with the voice communication session is on a list oftelephone numbers known for placing callers in the on hold status.

In some implementations, detecting the candidate end of the on holdstatus includes using audio fingerprinting to determine at least athreshold change in the audio stream.

In some implementations, determining that the response to the responsesolicitation signal indicates that the candidate end of the on holdstatus is the actual end of the on hold status includes: processing theresponse using at least one machine learning model to generate at leastone predicted output; and determining the candidate end of the on holdstatus is the actual end of the on hold status based on the at least onepredicted output. In some versions of those implementations, the atleast one predicted output includes predicted text for the response, anddetermining the candidate end of the on hold status is the actual end ofthe on hold status based on the predicted output includes determiningthat the text is responsive to the response solicitation signal. In someadditional or alternative versions of those implementations, the atleast one predicted output includes a prediction of whether the responseis a human voice, and determining the candidate end of the on holdstatus is the actual end of the on hold status based on the predictedoutput includes determining that the prediction of whether the responseis a human voice indicates that the response is a human voice.

In some implementations, the method further includes, subsequent todetermining that the response to the response solicitation signalindicates that the candidate end of the on hold status is the actual endof the on hold status: sending, from the client device, an end of holdmessage as input to the audio stream of the voice communication session.The end of hold message is audible to the human user and indicates thatthe calling user is returning to the voice communication session. Insome of those implementations, the method further includes, subsequentto determining that the response to the response solicitation signalindicates that the candidate end of the on hold status is the actual endof the on hold status: ending the on hold client on the client device.

In some implementations, the user interface output that indicates theactual end of the on hold status is rendered via the client device, anadditional client device that is linked to the client device, and/or aperipheral device (e.g., a networked light).

In some implementations, the method further includes identifying one ormore pre-recorded voice characteristics of a pre-recorded human voicethat is associated with a telephone number (or other unique identifier)associated with the voice communication session. In some versions ofthose implementations, determining that the response to the responsesolicitation signal indicates that the candidate end of the on holdstatus is an actual end of the on hold status includes: determining oneor more response voice characteristics for the response; and determiningthat the one or more response voice characteristics differ from the oneor more pre-recorded voice characteristics.

In some implementations, a method implemented by one or more processorsis provided and includes receiving user interface input provided via aclient device. The user interface input is provided by a calling userwhen a voice communication session is in an on hold status. The voicecommunication session is initiated by the client device, and a calledparty controls the on hold status of the voice communication session.The method further includes, in response to receiving the user interfaceinput: monitoring audio generated by the called party during the voicecommunication session for a candidate end of the on hold status. Themethod further includes detecting, based on the monitoring, thecandidate end of the on hold status. The method further includes, inresponse to detecting the candidate end of the on hold status: sending,by the client device, audible output for inclusion in the voicecommunication session. The audible output includes a recorded humanvoice speaking one or more words or a synthetically generated voicespeaking the one or more words. The method further includes: monitoringaudio generated by the called party following the audible output; anddetermining that the audio generated by the called party following theaudible output satisfies one or more criteria that indicate thecandidate end of the on hold status is an actual end of the on holdstatus. The actual end of the on hold status indicates that a human useris available to interact with the calling user in the voicecommunication session. The method further includes causing userinterface output to be rendered in response to determining the actualend of the on hold status. The user interface output is perceptible bythe calling user and indicates the actual end of the on hold status.

These and other implementations of the technology can optionally includeone or more of the following features.

In some implementations, determining that the audio generated by thecalled party following the audible output satisfies one or more criteriaincludes: generating text by performing a voice-to-text conversion ofthe audio generated by the called party following the audible output;and determining that the text is responsive to the one or more words ofthe audible output.

In some implementations, the user interface input is an affirmativeresponse to a graphical and/or audible suggestion rendered by the clientdevice, where the suggestion is a suggestion to initiate an on holdclient to monitor for an end of the on hold status. In some of thoseimplementations, the suggestion is rendered by the client device inresponse to detecting, based on audio generated by the called partyduring the voice communication session, that the call is in the on holdstatus.

In some implementations, a method implemented by a client device thatinitiated a voice communication session is provided and includes, whilethe voice communication session is in an on hold status: monitoring anaudio stream of the voice communication session for an occurrence of ahuman voice speaking in the audio stream; in response to detecting theoccurrence of the human voice during the monitoring: sending a responsesolicitation signal as input to the audio stream; monitoring the audiostream for a response to the response solicitation signal; determiningwhether the response to the response solicitation signal is a humanresponse that is responsive to the response solicitation signal; andwhen it is determined that the response is a human response that isresponsive to the response solicitation signal: causing user interfaceoutput to be rendered that is perceptible by the calling user and thatindicates an end of the on hold status.

In addition, some implementations include one or more processors of oneor more computing devices, where the one or more processors are operableto execute instructions stored in associated memory, and where theinstructions are configured to cause performance of any of theaforementioned methods. Some implementations also include one or morenon-transitory computer readable storage media storing computerinstructions executable by one or more processors to perform any of theaforementioned methods.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating an example environment in whichvarious implementations can be implemented.

FIG. 2 is a diagram illustrating an example interaction between a clientdevice and a voice communication session.

FIG. 3 is a diagram illustrating another example interaction between aclient device and a voice communication session.

FIG. 4 is a diagram illustrating another example interaction between aclient device and a voice communication session.

FIG. 5 is a flowchart illustrating an example process according toimplementations disclosed herein.

FIG. 6 is a block diagram illustrating an example architecture of acomputing device.

DETAILED DESCRIPTION

FIG. 1 illustrates an example environment 100 in which variousimplementations can be implemented. The example environment 100 includesone or more client devices 102. For the same of brevity and simplicity,the term “on hold client” as used herein as “serving” a particular usermay often refer to the combination of an on hold client 104 operated bythe user on client device 102 and one or more cloud-based on holdcomponents (not depicted).

Client device 102 may include, for example, one or more of: a desktopcomputing device, a laptop computing device, a touch sensitive computingdevice (e.g., a computing device which can receive input via touch froma user), a mobile phone computing device, a computing device of avehicle of the user (e.g., an in-vehicle communications system), astandalone interactive speaker, a smart appliance such as a smarttelevision, a projector, and/or a wearable apparatus of the user thatincludes a computing device (e.g., a watch of the user having acomputing device, glasses of the user having a computing device, avirtual or augmented reality computing device, etc.). Additionallyand/or alternative computing devices may be provided.

In some implementations on hold client 104 may engage in a dialogsession in response to user interface input, even when that userinterface input is not explicitly directed to on hold client 104. Forexample on hold client 104 may examine the contents of an audio streamof a voice communication session and/or the contents of user interfaceinput and engage in a dialog session. For example, in response tocertain terms being present in the audio stream of the voicecommunication session, in the user interface input, and/or based onother cues, the on hold client can engage in a dialog session. In manyimplementations, on hold client 104 may utilize speech recognition toconvert utterances from users into text, and respond to the textaccordingly, e.g., by providing search results, general information,and/or taking one or more response actions (e.g., launching on holddetection, etc.).

Each client device 102 may execute a respective instance of an on holdclient 104. In a variety of implementations, one or more aspects of onhold client 104 can be implemented off the client device 102. Forexample, one or more components of on hold client 104 can be implementedon one or more computing systems (collectively referred to as a “cloud”computing system) that are communicatively coupled to client devices 102via one or more local and/or wide area networks (e.g., the internet).Each of the client computing devices 102 may include one or morememories for storage of data and software applications, one or moreprocessors for accessing data and executing applications, and othercomponents that facilitate communication over a network. The operationsperformed by one or more computing devices 102 and/or on hold client 104may be distributed across multiple computer systems. On hold client 104may be implemented as, for example, computer programs running on one ormore computers running in one or more locations that are coupled to eachother through a network.

In many implementations, on hold client 104 may include a correspondingspeech capture/text-to-speech (“TTS”)/speech-to-text (“STT”) module 106,a natural language processor 108, an audio stream monitor 110, a holddetection module 112, and other components.

On hold client 104 may include the aforementioned corresponding speechcapture/TTS/STT module 106. In other implementations, one or moreaspects of speech capture/TTS/STT module 106 may be implementedseparately from the on hold client 104. Each speech capture/TTS/STTmodule 106 may be configured to perform one or more functions: capture auser's speech, e.g., via a microphone (not depicted) integrated in theclient device 102; convert that captured audio to text (and/or to otherrepresentations or embeddings); and or convert text to speech. Forexample, in some implementations, because a client device 102 may beconstrained in terms of computing resources (e.g., processor cycles,memory, battery, etc.), the speech capture/TTS/STT module 106 that islocal to each client device 102 may be configured convert a finitenumber of different spoken phrases—particularly phrases that invoke onhold client 104—to text (or other forms, such as lower dimensionalityembeddings). Other speech input may be sent to cloud-based on holdclient components (not depicted), which may include a cloud-based TTSmodule and/or a cloud-based STT module.

Natural language processor 108 of on hold client 104 processes naturallanguage input generate by users via client device 102 and may generateannotated output for use by one or more components of the on hold client104. For example, the natural language processor 108 may process naturallanguage free-form input that is generated by a user via one or moreuser interface input devices of client device 102. The generatedannotated output includes one or more annotations of the naturallanguage input and optionally one or more (e.g., all) of the terms ofthe natural language input.

In some implementations, the natural language processor 108 isconfigured to identify and annotate various types of grammaticalinformation in natural language input. For example, the natural languageprocessor 108 may include a part of speech tagger configured to annotateterms with their grammatical roles. Also, for example, in someimplementations the natural language processor 108 may additionallyand/or alternatively include a dependency parser (not depicted)configured to determine syntactic relationships between terms in naturallanguage input.

In some implementations, the natural language processor 108 mayadditionally and/or alternatively include an entity tagger (notdepicted) configured to annotate entity references in one or moresegments such as references to people (including, for instances,literary characters, celebrities, public figures, etc.), organizations,locations (real and imaginary), and so forth. The entity tagger of thenatural language processor 108 may annotate references to an entity at ahigh level of granularity (e.g., to enable identification of allreferences to an entity class such as people) and/or a lower level ofgranularity (e.g., to enable identification of all references to aparticular entity such as a particular person). The entity tagger mayrely on content of the natural language input to resolve a particularentity and/or may optionally communicate with a knowledge graph or otherentity database to resolve a particular entity.

In some implementations, the natural language processor 108 mayadditionally and/or alternatively include a coreference resolver (notdepicted) configured to group, or “cluster”, references to the sameentity based on one or more contextual cues. For example, thecoreference resolver may be utilized to resolve the term “there” to“Hypothetical Café” in the natural language input “I liked HypotheticalCafé last time we ate there.”

In many implementations, one or more components of the natural languageprocessor 108 may rely on annotations from one or more other componentsof the natural language processor 108. For example, in someimplementations, the named entity tagger may rely on annotations fromthe coreference resolver and/or dependency parsers in annotating allmentions to a particular entity. Also, for example, in someimplementations the coreference resolver may rely on annotations fromthe dependency parser in clustering references to the same entity. Inmany implementations, in processing a particular natural language input,one or more components of the natural language processor 108 may userelated prior input and/or other related data outside of the particularnatural language input to determine one or more annotations.

In many implementations, on hold client 104 can interact with voicecommunication sessions on hold without any required interaction from theuser who placed the session. In some additional or alternativeimplementations, the on hold client 104 can initiate an on hold process,terminate an on hold process, notify a user the voice communicationsession is no longer on hold, and/or pass the voice communicationsession which is no longer on hold to an additional client on the clientdevice 102.

In many implementations, audio stream monitor 110 can be used by clientdevice 102 and/or on hold client 104 to monitor the incoming and/oroutgoing portions of an audio stream of voice communication sessions.For example, an incoming portion of an audio stream can include theaudio portion a caller hears after making a voice communication session(e.g., another human's voice, music, etc.). Similarly, the outgoingportion an audio stream of a voice communication session can includewhat a caller says to another caller through the audio stream and/orother signals provided by the on hold client (such as a solicitationresponse query asking if another person is on the line). In some suchimplementations, client device 102 can use audio stream monitor 110 todetect when a voice communication session has been placed on hold andpass the on hold voice communication session to on hold client 104.Additionally or alternatively, on hold client 104 can monitor the audiostream of voice communication sessions and the on hold client 104 itselfcan determine when a voice communication session has been placed onhold. Signals in the audio stream detected by audio stream monitor 110indicating a voice communication session has been placed on hold caninclude the detection of known on hold music, the detection of any music(since users are unlikely to play songs for each other over the voicecommunication session), a transition from a human voice to music, atransition from music to a human voice, etc.

Hold detection module 112 can use determinations about the audio streamof a voice communication session made by audio stream monitor 110 todetermine when a voice communication session has been placed on hold, avoice communication session is no longer on hold, a predicted remainingwait time, etc. Hold detection module 112 can provide an indication tothe user of the client device 102 when a session is no longer on hold aswell as pass the voice communication session to an additional client onclient device 102 to interact with the voice communication session(which may or may not require further interactions from the user).

Additionally or alternatively, a user can indicate to a client device102 though a user interface that a voice communication session has beenplaced on hold and the user would like to begin an on hold process usingon hold client 104. Hold detection module 112 can place a session onhold when it receives an affirmative indication through a user interfacein client device 102 that a session has been placed on hold from a usereither by recommending the session has been placed on hold and the userresponds in an affirmative manner to initiate an on hold process and/ora user directly indicates a session has been placed on hold via a userinterface in client device 102 to initiate an on hold process using holddetection module 112. In other implementations, hold detection module112 can automatically initiate an on hold process when it detects asession in an on hold state.

In many implementations, hold detection module 112 can additionally oralternatively determine when a session is no longer on hold. In manyimplementations, a user can indicate how they wish to be notified at theend of an on hold process. For example, a user may wish to receive avoice communication session on a mobile computing system which indicatesit is from the on hold number. Additionally or alternatively, a user canrequest connected smart devices within the same ecosystem of clientdevice 102, such as a smart light, respond in a certain manner when theend of the hold is detected. For example, smart lights on the samenetwork as the client device 102 can be instructed to flash on and off,dim in intensity, increase in intensity, change color, etc. to indicatean end of the hold of the voice communication session. Additionally oralternatively, a user watching a smart television can request anotification appear on the television when the end of the hold isdetected.

FIGS. 2, 3, and 4 each illustrate an interaction between an on holdclient (such as on hold client 104 illustrated in FIG. 1) and a voicecommunication session. FIG. 2 illustrates image 200 which includes onhold client 202 interacting with a voice communication session 206 whichis still on hold. In response to the detection of a potential (alsoreferred to as a “candidate”) end of the voice communication sessionhold, the on hold client 202 can send a response solicitation signalthrough the audio stream of the voice communication session 206 todetermine if an additional live user has become is active in thesession. In many implementations, an on hold client can determine atextual phrase to send as a response solicitation signal (e.g., “Are youthere”). In some such implementations, a text-to-speech module (similarto speech capture/TTS/STT module 106 illustrated in FIG. 1) can convertthe textual phrase into speech to provide as input to the audio stream.

In a variety of implementations, the potential end of the voicecommunication session hold can be detected by the on hold client 202detecting any of a variety of signals in the audio stream of the voicecommunication session including a change in music, a change from musicto a human voice (potentially a recorded voice as well as a live voice),signals detected by a variety of signals processing techniques such asDiscrete Fourier Transforms, the output of neural network models, etc. Ahuman voice can be analyzed as a signal and additionally oralternatively a speech-to-text module (similar to speech capture/TTS/STTmodule 106 illustrated in FIG. 1) can convert the human voice into text.Textual spoken language in an audio stream can additionally be analyzedby a natural language processor (such a natural language processor 108as illustrated in FIG. 1) to determine the meaning of what is spoken bythe human voice detected in the audio stream. The output of a naturallanguage processor can further be used to determine a potential end ofhold in the voice communication session. Additionally or alternatively,the output of natural language processor can be used in determining alive human user has entered the session. For example, the output of anatural language processor can provide input to one or more neuralnetwork models.

In some implementations, a neural network model can learn to identifyone or more “voices” to ignore within a voice communication session.Voices can include one or more individual speakers, background music,background noise, etc. For example, one or more neural network modelscan include a recurrent neural network (RNN). The RNN can include atleast one memory layer, such as a long short-term memory (LSTM) layer.Memory layers include one or more memory units to which input can besequentially applied and, at each iteration of applied input, the memoryunit(s) can be utilized to calculate a new hidden state based on theinput of that iteration and based on a current hidden state (that can bebased on input(s) of prior iteration(s)). In some implementations, amodel can be used to generate speaker diarization results for any ofvarious lengths of audio segments. As one example, the audio stream ofthe voice communication session can be divided into one or more dataframes. Each data frame can be a portion of the audio signal, such as a25 millisecond or other duration portion. Frame features can (or theframes themselves) can be applied, in sequence, as input to a trainedspeaker diarization model, to generate a sequence of outputs that eachinclude a corresponding probability of each of N invariant speakerlabels. For example, frame features of audio frame 1 can be appliedinitially as input to generate N probabilities, where each of the Nprobabilities corresponds to one of the N speaker labels; frame featuresof audio data frame 2 can be applied next as input to generate Nprobabilities, where each of the N probabilities is for a correspondingone of the N speaker labels; etc. It should be noted that while thegenerated N probabilities for audio data frame 2 are specific to audiodata frame 2, they will be contingent on the processing of audio dataframe 1, as the model can be a RNN model.

Additionally or alternatively, the N probabilities can indicate if asession has been placed on hold, if a session is still on hold, and/orif a potential end of hold signal has been detected. In manyimplementations, an estimated remaining hold time can be determined forthe voice communication session (through knowledge the on hold clienthas of typical hold lengths for a particular called number and/or anestimated remaining hold time as indicated in audio stream of the voicecommunication session). An estimated remaining hold time can beadditional input to a machine learning model in accordance with manyimplementations, where the machine learning model can be more likely tooutput a hold is over the shorter the remaining estimated hold time.

In other implementations, an on hold client can use knowledge of apotential remaining hold time to increase and/or decrease the thresholdit uses to send a response solicitation signal (with or without the useof one or more machine learning models). For example, if a voicecommunication session is predicted to have 20 minutes remaining on hold,an on hold client can have a higher threshold to send a responsesolicitation signal. Similarly, a voice communication session predictedto only have a few minutes (for example 3 minutes) can have a lowerthreshold to send a response solicitation signal.

The detection of a potential end of the voice communication session holdcan cause the on hold client 202 to send a response solicitation signalthrough the audio stream of the voice communication session to determineif an additional user has joined the voice communication session and thehold is over. For example, on hold client 202 can send a responsesolicitation signal 204, such as “Are you there”. Additionally oralternatively, the response solicitation signal can be any of a varietyof questions which would prompt a response such as “Is anyone there”,“Hello, are you there”, “Am I still on hold”, etc.

In many implementations, the response solicitation signal can prompt theadditional live human user who has ended the voice communication sessionhold for a predictable response. For example, a response to the responsesolicitation signal “Are you there” 204 can include “yes” and/or similara similar word or phrase indicting an affirmative response (e.g.,“Yeah”, “Yup”, as well as phrases which can include affirmativeresponses). Sending a response solicitation signal as input to the audiostream of the voice communication session can cost very littlecomputationally. Additionally or alternatively, the likelihood ofupsetting a recording (which can be played while a voice communicationsession is on hold) by asking the same question repeatedly is unlikely,so the threshold for sending the response solicitation query can be low.In other words, on hold clients in accordance with many implementationswill frequently send a response solicitation signal because of few (ifany) negatives from sending the response solicitation signal toofrequently. Furthermore, if the on hold client fails to send a responsesolicitation signal when one should have been sent, the voicecommunication session can potentially be terminated and require a userto begin the on hold process with a telephone number again.

In many implementations, the response solicitation signal 204 can besent though the audio stream of the voice communication session when thehold is not over. When a response solicitation signal is sent and thevoice communication session hold is not over, no response 208 will bedetected by on hold client 202 in the audio stream of voicecommunication session 206.

In many implementations, a recorded voice can reoccur while the voicecommunication session is on hold. In some such implementations, therecorded voice will not respond to the response solicitation signal, andthe on hold client can learn to not send response solicitation signalsto that voice in the future. For example, while on hold, a telephonenumber can play a recording including information about the number thatwas called (such as a website, business hours, etc.). This recordingcontaining information about the number can be looped several timeswhile the voice communication session is on hold. Once an on hold clientdetermines this voice does not respond to the response solicitationsignal, the on hold client can learn to not send additional responsesolicitation signals to that particular voice. In many implementations,an on hold client can learn to ignore a voice using one or more of avariety of signals generated by the particular voice (e.g., voicefingerprinting) including the pitch of the voice, identification of thevoice itself, and/or a particular sequence of words the voice is saying.

FIG. 3 illustrates image 300 which includes on hold client 302interacting with a voice communication session 306. In manyimplementations, on hold client 302 can send a response solicitationsignal 304 such as, “Is anyone there?” as input to the audio stream ofthe voice communication session. A textual response solicitation signalprovided by an on hold client can be converted into speech using a STTmodule (such as speech capture/TTS/STT module 106 illustrated in FIG.1). For example, an on hold client can provide the textual phrase “Isanyone there” as a response solicitation signal. A STT module canconvert this phrase into spoken language which can be transmitted asinput to the audio signal of the voice communication session.Determining when to send a response solicitation signal 304 is describedabove with respect to FIG. 2. Image 300 further illustrates an on holdclient receiving a response 308 “Yes, I am here” to the responsesolicitation signal and can make a determination the voice communicationsession is no longer on hold. In making a determination a voicecommunication session is no longer on hold, on hold client can convertthe detected input to the audio stream and convert the input into textusing a STT module (speech capture/TTS/STT module 106 illustrated inFIG. 1). Furthermore, a natural language processor (such as naturallanguage processor 108) can analyze the textual response to the responsesolicitation signal to provide a meaning of the textual response.

As described above with respect to FIG. 2, in many implementations thequestion “Is anyone there?” 304 generally will elicit an affirmativeresponse from a second user, such as “Yes, I am here”. In otherimplementations, the response solicitation signal can be phrased togenerally elicit a negative response. For example, the question “Am Istill on hold?” can elicit a negative response from a second user suchas “No, you are not on hold”. In some implementations, an on hold clientcan utilize typical responses to the specific response solicitationsignal used in part when making a determination that the session is nolonger on hold. In many implementations, the user who placed the voicecommunication session can be notified once the on hold client 302determines the session is no longer on hold.

In some implementations, a user can be notified a session is no longeron hold. For example, a mobile telephone can ring and/or vibrate tosimulate a new incoming session once the voice communication sessionhold is complete. Additionally or alternatively, networked devices inthe proximity of the user can be used as notifications a voicecommunication session hold has ended. For example, a user placing avoice communication session can be in the proximity of a smart light.The smart light can flash, dim in intensity, increase in intensity,change colors, etc. to notify a user. Additionally or alternatively, amessage can be pushed to a screen the user is interacting with includinga mobile phone, a computing device, a television, etc. For example, auser watching a smart television in the same device topography as theclient device used to initiate the voice communication session canreceive a notification on the television when the session hold is over.In a variety of implementations, a user can select how to be notified asan on hold preference. Additionally or alternatively, a user can selecthow to be notified when the on hold process begins.

FIG. 4 illustrates image 400 which includes on hold client 402 and voicecommunication session 406. In many implementations, an on hold clientcan receive a very strong indication the voice communication sessionhold is over. In some such implementations, the on hold client will notsend the response solicitation signal and instead can proceed withnotifying the user the session is no longer on hold. The human voicedetected in the audio stream can be converted to textual output using aSTT module (speech capture/TTS/STT module 106 illustrated in FIG. 1)which can be provided to a natural language processor (such as naturallanguage processor 108 illustrated in FIG. 1) to provide the meaning ofthe text to the on hold client. For example, message 404 “Hello Ms. JaneDoe. My name is John Smith and I represent ‘Hypothetical UtilityCompany’. How may I help you today?” can include strong indications thevoice communication session is no longer on hold. For example, detectionof a user's name (such as Jane Doe and/or Ms. Doe), detection of aphrase which indicates the additional users name (such as “My name isJohn Smith”), as well as other phrases (such as “How may I help youtoday?”) can all individually and/or in combination cause an on holdclient to determine a voice communication session hold is over withoutsending a response solicitation signal. In many implementations, a usercan be notified as previously described when the on hold clientdetermines the voice communication session is no longer on hold.

FIG. 5 is a flowchart illustrating an example process 500 in accordancewith many implementations disclosed herein. For convenience, theoperations of the flowchart of FIG. 5 are described with reference to asystem that performs the operations. This system may include variouscomponents of various systems, such as one or more components of clientdevice 102. Moreover, while operations of process 500 are shown in aparticular order, this is not meant to be limiting. One or moreoperations may be reordered, omitted, or added.

At block 502, the client device can optionally determine a voicecommunication session is on hold. As described above with respect tohold detection module 112 as illustrated in FIG. 1, a client device candetermine a voice communication session is on hold in a variety of waysincluding detecting a known hold music, detecting any music, detecting achange from a human voice to music, direct input from the user thesession has been placed on hold, determining the number called is aknown number to generally place users on hold, as well as any of avariety of signal processing techniques including Discrete FourierTransforms as well as a determination by one or more machine learningmodels associated with the on hold client in the client device.

At block 504, the client device initiates an on hold client similar toan on hold client 104 described above with respect to FIG. 1.

At block 506, the on hold client can monitor incoming and/or outgoingportions of the audio stream of the on hold voice communication session.In many implementations, an on hold client can monitor an audio streamin a manner similar to audio stream monitor 110 described above withrespect to FIG. 1.

At block 508, the on hold client can determine when to send a responsesolicitation signal through the audio stream of the voice communicationsession. A variety of ways an on hold client can make a determination tosend a response solicitation signal are described above with respect toFIG. 2. In many implementations, an on hold client can send one or moreresponse solicitation signals, and keep sending response solicitationsignals until the voice communication session is no longer on holdand/or the on hold client receives an indication from the user to endthe on hold process (e.g., the user has become tired of waiting on holdand wants to end the on hold process and call the telephone number againlater). In other implementations, an on hold client can send no responsesolicitation signals. For example, strong indicators can be detectedindicating a session is no longer on hold (as described above withreference to FIG. 4) and an on hold client can determine a voicecommunication session is no longer on hold without sending a responsesolicitation signal.

At block 510, an on hold client can determine a voice communicationsession is no longer on hold. In various implementations, thisdetermination can be made based on a received response to a responsesolicitation signal. In other implementations, this determination can bemade using the strength of information monitored through the audiostream which is strong enough to indicate the voice communicationsession is no longer on hold without sending a response solicitationsignal. Additionally or alternatively, an on hold client can send one ormore response solicitation signals (which are not responded to) and thenreceive such a strong indication the voice communication session is nolonger on hold that an additional response solicitation signal is notsent.

At block 512, the on hold client notifies the user the voicecommunication session is no longer on hold. A variety of ways an on holdclient can notify a user of the end of a voice communication sessionhold are described above with respect to FIG. 1. Additionally oralternatively, an on hold client can pass the voice communicationsession to another client associated with the client device to handlethe voice communication session in place of the user. For example, oncean on hold client has determined a voice communication session is nolonger on hold, the on hold client can pass the voice communicationsession to a second client which can interact with the additional personon the voice communication session on behalf of the user.

FIG. 6 is a block diagram of an example computer system 610. Computersystem 610 typically includes at least one processor 614 whichcommunicates with a number of peripheral devices via bus subsystem 612.These peripheral devices may include a storage subsystem 624, including,for example, a memory 625 and a file storage subsystem 626, userinterface output devices 620, user interface input devices 622, and anetwork interface subsystem 616. The input and output devices allow userinteraction with computer system 610. Network interface subsystem 616provides an interface to outside networks and is coupled tocorresponding interface devices in other computer systems.

User interface input devices 622 may include a keyboard, pointingdevices such as a mouse, trackball, touchpad, or graphics tablet, ascanner, a touchscreen incorporated into the display, audio inputdevices such as voice recognition systems, microphones, and/or othertypes of input devices. In general, use of the term “input device” isintended to include all possible types of devices and ways to inputinformation into computer system 610 or onto a communication network.

User interface output devices 620 may include a display subsystem, aprinter, a fax machine, or non-visual displays such as audio outputdevices. The display subsystem may include a cathode ray tube (CRT), aflat-panel device such as a liquid crystal display (LCD), a projectiondevice, or some other mechanism for creating a visible image. Thedisplay subsystem may also provide non-visual display such as via audiooutput devices. In general, use of the term “output device” is intendedto include all possible types of devices and ways to output informationfrom computer system 610 to the user or to another machine or computersystem.

Storage subsystem 624 stores programming and data constructs thatprovide the functionality of some or all of the modules describedherein. For example, the storage subsystem 624 may include the logic toperform selected aspects of the client device illustrated in FIG. 1,process 500 illustrated in FIG. 5, any operation(s) discussed herein,and/or any other device or application discussed herein.

These software modules are generally executed by processor 614 alone orin combination with other processors. Memory 625 used in the storagesubsystem 624 can include a number of memories including a main randomaccess memory (RAM) 630 for storage of instructions and data duringprogram execution and a read only memory (ROM) 632 in which fixedinstructions are stored. A file storage subsystem 626 can providepersistent storage for program and data files, and may include a harddisk drive, a floppy disk drive along with associated removable media, aCD-ROM drive, an optical drive, or removable media cartridges. Themodules implementing the functionality of certain implementations may bestored by file storage subsystem 626 in the storage subsystem 624, or inother machines accessible by the processor(s) 614.

Bus subsystem 612 provides a mechanism for letting the variouscomponents and subsystems of computer system 610 communicate with eachother as intended. Although bus subsystem 612 is shown schematically asa single bus, alternative implementations of the bus subsystem may usemultiple busses.

Computer system 610 can be of varying types including a workstation,server, computing cluster, blade server, server farm, or any other dataprocessing system or computing device. Due to the ever-changing natureof computers and networks, the description of computer system 610depicted in FIG. 6 is intended only as a specific example for purposesof illustrating some implementations. Many other configurations ofcomputer system 610 are possible having more or fewer components thanthe computer system depicted in FIG. 6.

In situations in which the systems described herein collect personalinformation about users (or as often referred to herein,“participants”), or may make use of personal information, the users maybe provided with an opportunity to control whether programs or featurescollect user information (e.g., information about a user's socialnetwork, social actions or activities, profession, a user's preferences,or a user's current geographic location), or to control whether and/orhow to receive content from the content server that may be more relevantto the user. Also, certain data may be treated in one or more waysbefore it is stored or used, so that personal identifiable informationis removed. For example, a user's identity may be treated so that nopersonal identifiable information can be determined for the user, or auser's geographic location may be generalized where geographic locationinformation is obtained (such as to a city, ZIP code, or state level),so that a particular geographic location of a user cannot be determined.Thus, the user may have control over how information is collected aboutthe user and/or used.

While several implementations have been described and illustratedherein, a variety of other means and/or structures for performing thefunction and/or obtaining the results and/or one or more of theadvantages described herein may be utilized, and each of such variationsand/or modifications is deemed to be within the scope of theimplementations described herein. More generally, all parameters,dimensions, materials, and configurations described herein are meant tobe exemplary and that the actual parameters, dimensions, materials,and/or configurations will depend upon the specific application orapplications for which the teachings is/are used. Those skilled in theart will recognize, or be able to ascertain using no more than routineexperimentation, many equivalents to the specific implementationsdescribed herein. It is, therefore, to be understood that the foregoingimplementations are presented by way of example only and that, withinthe scope of the appended claims and equivalents thereto,implementations may be practiced otherwise than as specificallydescribed and claimed. Implementations of the present disclosure aredirected to each individual feature, system, article, material, kit,and/or method described herein. In addition, any combination of two ormore such features, systems, articles, materials, kits, and/or methods,if such features, systems, articles, materials, kits, and/or methods arenot mutually inconsistent, is included within the scope of the presentdisclosure.

What is claimed:
 1. A method implemented by one or more processors,comprising: detecting that a voice communication session is in an onhold status, where the voice communication session is initiated by aclient device of a calling user, and wherein detecting that the voicecommunication session is in the on hold status is based at least in parton an audio stream of the voice communication session; initiating an onhold client on the client device, wherein initiating the on hold clientis during the voice communication session and is based on detecting thatthe voice communication session is in the on hold status; monitoring,using the on hold client, the audio stream of the voice communicationsession for a candidate end of the on hold status, wherein monitoringthe audio stream of the voice communication session occurs withoutdirect interaction from the calling user; detecting, based on themonitoring, the candidate end of the on hold status; in response todetecting the candidate end of the on hold status: sending, from theclient device, a response solicitation signal as input to the audiostream of the voice communication session; monitoring the audio streamof the voice communication session for a response to the responsesolicitation signal; determining that the response to the responsesolicitation signal indicates that the candidate end of the on holdstatus is an actual end of the on hold status, wherein the actual end ofthe on hold status indicates that a human user is available to interactwith the calling user in the voice communication session; and causinguser interface output to be rendered in response to determining theactual end of the on hold status, wherein the user interface output isperceptible by the calling user and indicates the actual end of the onhold status.
 2. The method of claim 1, wherein detecting the candidateend of the on hold status comprises: detecting a human voice speaking inthe audio stream of the voice communication session.
 3. The method ofclaim 1, wherein the client device is a mobile telephone or a standaloneinteractive speaker.
 4. The method of claim 1, wherein initiating the onhold client is responsive to user interface input provided at the clientdevice by the calling user.
 5. The method of claim 4, furthercomprising: in response to detecting that the voice communicationsession is in the on hold status: rendering, at the client device, asuggestion for initiating the on hold client; wherein the user interfaceinput provided by the calling user is affirmative user interface inputthat is provided responsive to rendering the suggestion at the clientdevice.
 6. The method of claim 1, wherein the on hold client isautomatically initiated by the client device in response to detectingthat the voice communication session is in the on hold status.
 7. Themethod of claim 1, wherein detecting that the voice communicationsession is in the on hold status comprises: detecting music in the audiostream of the voice communication session; and determining the music isincluded in a list of known on hold music.
 8. The method of claim 1,wherein detecting that the voice communication session is in the on holdstatus is further based on: determining a telephone number associatedwith the voice communication session is on a list of telephone numbersknown for placing callers in the on hold status.
 9. The method of claim1, wherein detecting the candidate end of the on hold status comprisesusing audio fingerprinting to determine at least a threshold change inthe audio stream.
 10. The method of claim 1, wherein determining thatthe response to the response solicitation signal indicates that thecandidate end of the on hold status is the actual end of the on holdstatus comprises: processing the response using at least one machinelearning model to generate at least one predicted output; anddetermining the candidate end of the on hold status is the actual end ofthe on hold status based on the at least one predicted output.
 11. Themethod of claim 10, wherein the at least one predicted output includespredicted text for the response, and wherein determining the candidateend of the on hold status is the actual end of the on hold status basedon the predicted output comprises: determining that the text isresponsive to the response solicitation signal.
 12. The method of claim11, wherein the at least one predicted output includes a prediction ofwhether the response is a human voice, and wherein determining thecandidate end of the on hold status is the actual end of the on holdstatus based on the predicted output comprises: determining that theprediction of whether the response is a human voice indicates that theresponse is a human voice.
 13. The method of claim 1, furthercomprising, subsequent to determining that the response to the responsesolicitation signal indicates that the candidate end of the on holdstatus is the actual end of the on hold status: sending, from the clientdevice, an end of hold message as input to the audio stream of the voicecommunication session, wherein the end of hold message is audible to thehuman user and indicates that the calling user is returning to the voicecommunication session; and ending the on hold client on the clientdevice.
 14. The method of claim 1, wherein the user interface outputthat indicates the actual end of the on hold status is rendered via oneor multiple of: the client device, an additional client device that islinked to the client device, and a networked light.
 15. The method ofclaim 1, further comprising: identifying one or more pre-recorded voicecharacteristics of a pre-recorded human voice that is associated with atelephone number associated with the voice communication session;wherein determining that the response to the response solicitationsignal indicates that the candidate end of the on hold status is anactual end of the on hold status comprises: determining one or moreresponse voice characteristics for the response; and determining thatthe one or more response voice characteristics differ from the one ormore pre-recorded voice characteristics.
 16. A method implemented by oneor more processors of a client device, the method comprising: receivinguser interface input provided via the client device, the user interfaceinput provided by a calling user when a voice communication session isin an on hold status, wherein the voice communication session isinitiated by the client device, and wherein a called party controls theon hold status; in response to receiving the user interface input:monitoring audio generated by the called party during the voicecommunication session for a candidate end of the on hold status;detecting, based on the monitoring, the candidate end of the on holdstatus; in response to detecting the candidate end of the on holdstatus: sending, by the client device, audible output for inclusion inthe voice communication session, wherein the audible output comprises arecorded human voice speaking one or more words or a syntheticallygenerated voice speaking the one or more words; monitoring audiogenerated by the called party following the audible output; determiningthat the audio generated by the called party following the audibleoutput satisfies one or more criteria that indicate the candidate end ofthe on hold status is an actual end of the on hold status, wherein theactual end of the on hold status indicates that a human user isavailable to interact with the calling user in the voice communicationsession; and causing user interface output to be rendered in response todetermining the actual end of the on hold status, wherein the userinterface output is perceptible by the calling user and indicates theactual end of the on hold status.
 17. The method of claim 16, whereindetermining that the audio generated by the called party following theaudible output satisfies one or more criteria comprises: generating textby performing a voice-to-text conversion of the audio generated by thecalled party following the audible output; determining that the text isresponsive to the one or more words of the audible output.
 18. A methodimplemented by a client device that initiated a voice communicationsession, the method comprising: while the voice communication session isin an on hold status: monitoring an audio stream of the voicecommunication session for an occurrence of a human voice speaking in theaudio stream; in response to detecting the occurrence of the human voiceduring the monitoring: sending a response solicitation signal as inputto the audio stream; monitoring the audio stream for a response to theresponse solicitation signal; determining whether the response to theresponse solicitation signal is a human response that is responsive tothe response solicitation signal; and when it is determined that theresponse is a human response that is responsive to the responsesolicitation signal: causing user interface output to be rendered thatis perceptible by the calling user and that indicates an end of the onhold status.